Delivering highest quality 3D data and HDR imaging at an extremely fast scan rate of 1 mio points per second at ranges of up to 270 m. Unsurpassed range and angular accuracy paired with low range noise and survey-grade dual-axis compensation form the foundation for highly detailed 3D colour point clouds mapped in realistic clarity.

Reducing downtime, the extremely durable 3D laser scanners perform even under the toughest environmental conditions, such as extreme temperatures ranging from – 20°C to + 50°C and comply with the IP54 rating for dust and water resistance.

Leica Geosystems 3D laser scanners deliver:

Highest quality 3D data and HDR imaging

Extremely high speed scan rate of 1 mio points per second

Ranges of up to 270 m

Low range noise

Survey-grade dual-axis compensation

Highly detailed 3D colour point clouds mapped in realistic clarity

Your complete laser scanning solution
Leica Geosystems offers the Leica ScanStation portfolio as an integrated part of a complete scanning solution including hardware, software, service, training and support. 3D laser scanner data can be processed in the industry’s leading 3D point cloud software suite, which consists of Leica Cyclone stand-alone software, Leica CloudWorx plug-in tools for CAD systems and the free Leica TruView.

How-to configure the instrument
The Leica ScanStation P40 terrestrial laser scanner offers various settings for configuration, e.g. date and time, units and language. This video shows how to define these settings for an initial configuration.

How-to start a scan
Learn about the Leica ScanStation P40 scanning process from start to finish and which key settings are vital for a scan definition.

How-to use the Scan Viewer
See how the Scan Viewer of the Leica ScanStation P40 can be used as an essential tool for a quick and easy definition of sub-scans and a quick check in the field.

How-to acquire images with the internal camera
Learn from this how-to video how the internal camera of the ScanStation P40 creates high quality images for the colour mapping of scanned 3D point clouds.